GNSS joins the fight against the global pandemic
New applications of GNSS
Global Navigation Satellite System (GNSS) technology is an enabler for numerous applications which make our lives more convenient and efficient. With the worldwide spread of the COVID19 virus, GNSS even further proves to be an invaluable technology. The struggle to tame the pandemic motivated the development of various initiatives, the feasibility of which rely on the ability to obtain accurate positioning information.
Analysis & Forecasting
Thousands of GNSS terminals installed in vehicles allow increasing the efficiency of the entire road transportation system. At the level of users, location-based technology informs drivers about possible congestions and helps to optimise their route, whereas governments can leverage this knowledge to better allocate much-needed resources. In China alone, epidemic prevention and transportation service information has been sent to over 6 million vehicles, to optimise the delivery of emergency and medical materials to isolation hospitals.
Besides, tech giants such as Google or Bytedance as well as big mobile operators have a vast collection of location data on billions of their customers. Such aggregated information can be used on a small and large scale. Applications like Italy’s Filaindiana.it allow receiving near real-time updates on whether certain places like shops are currently busy or relatively empty. These insights are critical for people’s decision making regarding everyday activities, for example, when and where to go to do groceries while maintaining their physical distance from others.
At the same time, these metadata are a great resource for governments to create models of the spread of the disease for informed decision making. Such analytics can serve as a basis for forecasts as well as for the evaluation of current and potential new policies. In Germany, for instance, the government’s public-health agency Robert Koch Institute has already established such cooperation with Deutsche Telekom.
Tracking & Tracing
GNSS also enables the establishment and use of geofencing – location-tracking to ensure that people who are quarantined stay in their homes. If people leave the quarantine areas, as indicated by the location of their phones, they receive a warning while local authorities get notified of the defiance. To prevent people from tricking the system by leaving their gadgets at home, regular phone check-ups take place. The use of this approach in Taiwan with the help of “electronic fence” app, for instance, allowed to keep the number of infection cases incredibly low despite its proximity to China.
Detection of close contact to COVID-cases is also available now in the form of an app. In South Korea, the Now & Here application by ITL provides detailed information on local neighbourhoods, ranging from restaurants and shops to tourist attractions. The app has added COVID information to its offer, based on the user’s current location, showing where confirmed patients have passed by recently. Another prominent app is TraceTogether from Singapore. The application does not actively use GNSS/LBS, but employs Bluetooth to record contact history for subsequent encryption and storage. The record update takes place if two users of the application happen to spend over thirty minutes within two meters of each other. If one of the people ultimately gets diagnosed with the disease, the other one gets notified of this fact and also gets encouraged to undergo testing.
Mapping & Tagging
Some platforms like Corona Map in Korea are being used for tagging of dangerous areas and COVID hotspots. In other words, a map marks sites which were visited by confirmed patients and colour-codes how long ago those visits took place. This gives a much better understanding of which areas are relatively safe and which locations should better be avoided. China’s HaiGe Smart Epidemic Prevention Management Platform takes it even further by analysing the patterns of the virus spread to calculate and suggest the safest possible commuting route to the people who are not able to work from home.
Alternatively, there are apps like MapmyIndia that can be used to locate and reach the nearest specialised facility, be it a Coronavirus testing lab, an isolation centre, or a hospital. This same concept is also applied to more day-to-day locations such as an open shop or a pharmacy with available medical masks as is the case with Taiwan’s Pharmacy Locator app (Zhao Yao Ju), which is extremely useful as the island has rationed masks for its population. Needless to say, millions of people have benefited from such helpful guidance already.
Also, with gyms becoming a less and less viable option for doing sports amid the epidemic, people are starting to look for alternatives. This normally entails trying to avoid the crowds by exercising closer to nature. Currently, hiking is becoming one of the increasingly popular alternatives subsequently boosting the demand for trail map apps like Hiking Biji.
Another category of solutions improves the quality, speed, and safety of providing critical response services. GINA GO, for instance, is a Czech app aimed at civil servants, such as police officers, hygienic workers, firefighters, and rescuers as well as volunteers in the field. The application has a wide functionality ranging from notifying the staff of potentially dangerous zones to helping monitor infected patients and, if necessary, report an emergency situation.
Governments also use GNSS technology for a rapid expansion of infrastructure capacity in response to the skyrocketed needs. For example, the unprecedented construction of two hospitals in Hubei (2600+ beds in total) in the span of ten days would not have been possible without the GNSS-based surveying of the site.
Unmanned aerial vehicles (UAV), which were previously mostly used in agriculture for spraying pesticides, are now being repurposed for large-scale disinfection. With the help of precise navigation, pilots can cover areas of up to five thousand square meters within ten to fifteen minutes. This results in a fifty times higher speed efficiency as well as greatly reduces the workers’ exposure to the virus and chemicals. Another way that GNSS-enabled drones are saving lives is through fast and accurate deliveries between the areas with the Coronavirus outbreak and medical centres. Such an approach, for example, sped up the delivery of medical test samples by fifty per cent while simultaneously minimising direct human contact. Drones are also being geared with all the necessary equipment like loudspeakers and thermal sensors to effectively enforce quarantines. Each UAV is capable of patrolling an area of up to ten square kilometres which amounts to the work of one hundred police officers.
Similar concepts have been executed with the help of autonomous road vehicles. Those are being used to deliver essentials like food and medicines to people in need, as well as for disinfecting hospitals. When it comes to a smaller form factor, GNSS-powered autonomous robots complete multiple critical tasks ranging from meal deliveries to quarantined areas to performing diagnosis and conducting thermal imaging of the hospitalised.
A less novel yet still very useful GNSS application area are the individual transport sharing services. A great example of this are dockless e-scooters which can be rented with the help of an app like GoShare. The real power of such transport mode is that it allows citizens not to rely as much on public transport and therefore minimise physical contact with others.
Certain applications have been developed to ensure the delivery of important information to the population. This way, even while isolated, people have an opportunity to get their hands on the most critical information. Headline Today in China, for example, not only shares the latest updates regarding virus-related statistics or the latest government policies and directives but also enables its users to conduct a preliminary self-diagnoses by going through a symptoms-checking questionnaire.
Different approaches to a shared objective: Fighting COVID19
When looking at how different countries are fighting COVID19, there a lot of similarities in their approaches. Throughout Asia, private and public entities have used GNSS-based and other applications to inform their population, to identify nearby hospitals or pharmacies, to enforce quarantines or to trace close contacts to confirmed COVID-patients. Yet, some differences can be discerned between the diversity of approaches.
China, for instance, has taken bold and comprehensive measures to tame the pandemic. This includes mandatory applications for contact tracing, and the sharing of one’s health status using a QR-code. Compared to this approach, Japan is on a completely opposite side of the spectrum with a very strong tradition of personal privacy protection similar to the EU’s GDPR regulation. Therefore, while the tracking technology exists in Japan, location-based applications are unlikely to be used on a large scale for contact tracing or quarantine enforcement, unless there an update in legislation.
Other players fall somewhere in between the two examples from above. Both Taiwan and South Korea use GNSS-based geofencing for quarantine enforcement, and South Korea’s contact tracing teams are assisted by GNSS-driven technologies to speed up the process. It is also worth mentioning the specific situation of South Korea in regards to national technological use. The country has a near hundred per cent smartphone penetration rate, a particularly high ratio of credit and debit card use, as well as tight mobile network – both LTE and 5G. Such conditions, make Korea an excellent environment for the adoption of GNSS-based solutions against COVID19. Amongst others, these dimensions will influence whether other countries could or would replicate Korea’s policies and innovations.
Singapore, from its side, interestingly decided to opt for Bluetooth rather than location data in its TraceTogether app. The application reportedly encrypts all collected data and dispatches it only upon the request from national health authorities.
Lastly, it is noteworthy to see how India is employing a bottom-up approach by stimulating the population to contribute to the fight against the virus. For instance, the government has initiated COVID 19 Solution Challenge to crowdsource the ideas for potential products capable of taming the pandemic or at least mitigating its negative effects. India’s recently launched Aarogya Setu-application will combine location data and Bluetooth for contact tracing but also notify its users when a confirmed COVID19-patient is closeby.
European challenges and solutions
Asia was the first continent to be hit by COVID19. Thousands of people got infected and many lives have sadly been lost before the invisible enemy could be understood and mitigated. Now, stakeholders in Europe can analyse the invaluable experiences from their Asian counterparts.
However, European countries do have a different tradition and legal context, for instance with regards to the protection of one’s privacy and personal data, reflected in the EU’s GDPR-regulation. This reality will catalyse a European way for the development technologies against COVID19. The Belgian government, for instance, included its Data Protection Authority and an ethical committee in its Data Against Corona Taskforce, next to epidemiologists, telecom representatives, and data science experts.
The German government was not idle either and managed to organise a nation-wide #WirvsVirus. Being the biggest hackathon in Germany’s history, the event attracted over 40,000 participants who have put forwards thousands of different ideas. Interestingly enough, in the Czech Republic, a similar initiative has started, with nine leading IT companies joining forces to fight the pandemic, founding Covid19cz. The initiative attracted over 1300 volunteers, and the Czech government expressed enthusiasm to provide any necessary support for further development of the programme.
Another very promising development is Pan-European Privacy-Preserving Proximity Tracing initiative. The initiative unites over 130 participating organisations from eight European countries, and developed new technology to trace human contacts with respect for one’s personal data and privacy, and in line with GDPR. The system logs contacts identified by measuring radio signals such as Bluetooth without recording personal information or geolocation of its users. The source code is now freely available to all other countries who would like to develop similar systems of their own.
Still, it is very important to keep in mind that smartphone penetration in some parts of Europe is lower than in many Asian countries. Moreover, the use of smart devices is especially low for the most vulnerable population of seniors. Yet another problem is the combination of data from various sources which are often based on different technologies such as location data or communication data etc. This is especially true with the existence of multiple individual solutions without a central authority to coordinate and combine them. Lastly, the potential for privacy infringement through the increased use of location-based services might cast doubts on the necessity of such applications and reduce buy-in from citizens.
The European GNSS Agency (GSA) launched a great initiative, creating a useful repository with various developed applications against COVID19 during this difficult period. The potential use-cases are vast, and the current range already includes things like queue management, virus spread tracking, and response management. We absolutely recommend you to have a look!
Stay home, stay safe!
At the end of the day, it is essential to remember that any technology is just a mere tool in our hands and not an ultimate remedy. It is up to every single one of us to be highly conscious of the situation. GNSS.asia wishes all its readers good health, and for those impacted, a good recovery. Stay home, stay safe and take care of yourselves and your beloved ones!
Geodata for Financial Institutions (Part 1/2)
There is a lot of geodata publicly available. The Copernicus programme, for example, hosts 6 families of satellites (Sentinel 1 – 6) consisting of 30 operational earth observation satellites daily collecting images of the Earth. The current archive is already at several Petabytes and growing. One of the biggest challenges startups and scaleups are facing right now is how to add value to this geodata turning it into economically viable solutions, with remote sensing data being the center of focus. How to make satellite data based products that add value to traditional markets which originally have a very low awareness of geodata? How to break away from the proven geodata markets driven by GPS and tracking mobile data? These are questions many geospatial companies ponder upon nowadays.
Towards zero deforestation with geodata
This is one of the reasons why we founded Satelligence. We wanted to stop deforestation by making satellite data based products for stakeholders in commodity production value chains. Before Satelligence, organisations relied on out of date, low accuracy or incomplete deforestation data. Either because of cloud cover hampering optical satellite observations. Or because of a lack of capacity to cover all tropical forests. These products enable them to act upon illegal deforestation events happening right now, be proactive in engaging supply chain stakeholders linked to illegal deforestation, and ensure future yields by monitoring crop performance.
We developed a solution for stakeholders in commodity value chains through a lot of trial and error. We started with 3 people in a single room outputting geotiffs to a single client. In 18 months we grew to a team of 18 people, including out-of-comfort-zone positions like marketing, sales and business development. The geotiffs became a pdf bulletin. The bulletin became an online platform serving 60% of the global palm oil supply chain. We expect to cover 80% of global palm oil production by the end of 2020. While building our solution, Smart Forest & Commodity Analytics (SFCA), we learned two things:
- It’s not only a successful product in itself, it’s also the basis for our product development. Since product launch in 2018 we are constantly extending the app with features like Historical Trend Analysis, Supply Chain Analysis, Automated proactive Grievance Response and, our latest effort, Carbon Stock Accounting (is the total amount of biomass in my investment area increasing or decreasing? keep an eye on our socials for updates);
- During the development of the product we distilled our own way of product development: Story Based Development.
We used what we like to call ‘the story-based development’ method to develop a new product for a traditional market: Financial Institutions.
Why Financial Institutions?
At Satelligence we are accustomed to dealing with stakeholders from soft commodity supply chains: producers, processors, traders, manufacturers and retailers. But all these stakeholders have something in common: they are all directly involved with Financial Institutions through loans and / or shareholdership.
critical investors are the new Greenpeace.
Second, there is a trend, also among Financial Institutions, towards Environmental, social and corporate governance (ESG) and sustainability investing or financing. If your organisation doesn’t have a public sustainability policy, you are not eligible for financing; if your organisation is linked to unsustainable practices like illegal deforestation, your shareholder composition will dramatically change and you can potentially lose millions of dollars of stock market value , investors will take their hands off you. You could state that critical investors are the new Greenpeace.
Therefore, Financial Institutions are a very attractive market for geospatial companies. The problem is: that sector doesn’t understand geospatial and we don’t understand theirs. If, for example, you show maps to FI people, they think they are on holiday because that is the only time they use maps. What we learned is to convert map data into graphs and tabular overviews. That is a format they are used to and makes the information actionable for them.
We closed that gap by applying our story based development method. A new type of product emerged. To understand how we got there, first you have to understand the types of FI’s and how they make money.
That is the topic of the next blog in this series: Geodata for Financial Institutions 2.